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Query: UMLS:C0002871 (anemia)
 52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ingestion rate and oxygen-dependent metabolic activities of normal human polymorphonuclear leucocytes were measured with heat-killed Klebsiella as the particle. Since the experimental conditions were similar for each measurement, it was possible to make direct correlations between each oxygen-dependent reaction and (1) ingestion rate and (2) the other oxygen-dependent reactions. In the controls, oxygen-uptake was more reliably correlated (r = 0.960) with ingestion rates than with (in order of reliability) hydrogen peroxide produced (r = 0.860) and iodination (r = 0.858 and 0.813 for 100 and 20 micromol/l iodide respectively). Hydrogen peroxide production (r = 0.988), nitroblue tetrazolium reduction (r = 0.969) and cytochrome c reduction (r = 0.862) were more reliably correlated to oxygen-uptake than to ingestion rate, and iodination was better related to hydrogen peroxide production (r = 0.90 and 0.819 for 100 and 20 micromol/l iodide respectively) than to ingestion rate. From these findings it was possible to locate primary defects in abnormal polymorphonuclear leucocytes from individual patients with pyogenic infections, idiopathic refractory anaemia or idiopathic oesteomyelofibrosis with splenomegaly, even when several deficiencies existed.
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PMID:Metabolic activity of human polymorphonuclear leucocytes: relation to ingestion rate. 11 22

It was shown by Pincus and Klebanoff that a correlation existed between leukocytic iodination measured in vivo and microbicidal leukocytic activity. We have analyzed the results of this test in relation to time and in the presence of variable quantities of polymorphonuclear leukocytes (PMN). The values observed per time and PMN unit proved to be equivalent in the presence of 2.5 X 105 PMN or 5.0 x 105 PMN per 0.5 ml of incubation medium, measured after 10, 20 and 30 minutes or in the presence of 1.0 x 106 PMN, measured after 10 minutes. That is to say iodination is proportional to leukocyte concentration and incubation time. Increase of either the quantity of cells or the incubation time, beyond the area we defined, reduced iodination per cell and per unit of time. Concerning the patients with an insufficient iodination, we have studied 2 parameters in the presence of 5.0 x 105 PMN: 1) initial iodination measured after 10 and 20 minutes and 2) stability of iodination measured after 60 minutes. These two parameters were equally affected in two cases with myelofi-rosis, 3 patients with acquired refractory anaemia, one with chronic lymphoid leukaemia, one with erythroleukaemia, one with hairy cell leukaemia, one with systemic mastocytosis and almost complete myeloperoxidase dificiency, one with sickle cell disease, two with liver diseases and two with chronic myeloid leukaemia. The iodination at the 60th minute was more affected than at the 10th minute with a patient with myelofibrosis and 4 other patients with acquired refractory anaemias. The significance of these differences is not well understood; however the meaning of the decrease in the iodination of whatever type is that a PMN anomaly exists directly related to the myeloperoxidase H2O2 halogenation system, or to one of the stages of engulfment and/or metabolic events preceeding it and leading to the production of H2O2. This test, with the alterations we introduced, is suggested as a test for detection of functional PMN abnormalities.
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PMID:Quantitative iodination of human blood polymorphonuclear leukocytes. 16 86

To evaluate their toxicity at the cellular level, middle molecules from uremic serum were incubated with erythrocytes from healthy subjects and the activity of the enzyme Delta-aminolevulinic acid dehydrase (D-ALA-D) and peroxidative hemolysis were investigated. Uremic middle molecules caused a significant decrease of the D-ALA-D activity of normal erythrocytes which was not due to differences in the concentrations of Pb, Cd or Zn. The decreased enzyme activity could be restored by adding reduced glutathione (GSH; 5 mmol/L) together with the middle molecules to the assay system. Uremic middle molecules caused a significant increase of peroxidative hemolysis in normal erythrocytes. Uremic middle molecules contribute to the anemia of uremic patients by impeding hemoglobin synthesis and by increasing peroxidative hemolysis, possibly by affecting SH-groups. H2O2-producing compounds should be avoided in uremic patients.
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PMID:Influence of middle molecules on the anemia of uremic patients. 74 10

This paper reports a study of changes in red blood cell enzymes and some serum parameters during and after treatment of protein-calorie malnutrition. The red cell GSH levels were low during the crisis, together with the levels of GSSG:NADPH reductase, GSH:H2O2 peroxidase, aspartate aminotransferase and alanine aminotransferase. After treatment the levels of all these enzymes increased significantly to normal values. Of the serum parameters investigated, significant reduction in the activity of the enzymes cholinesterase, catecholamine oxidase, total proteins, albumin, urea and electrolytes were obvious, and returned to normal values after treatment. Ceruloplasmin activity remained low even after three weeks' treatment and could not be related to copper levels. The results are discussed in relation to anemia and liver damage that may accompany the syndrome.
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PMID:Protein-calorie malnutrition: a study of red blood cell and serum enzymes during and after crisis. 82 Apr 94

Cobalt deficiency was produced in goats by feeding them rhode grass hay. The deficient animals excreted increased amounts of methyl malonic acid in their urine, indicating a lack of vitamin B12. Erythrocyte reduced glutathione levels increased with the onset of anemia. There was a concomitant increase in the levels of erythrocyte glutathione reductase (GSSG NADPH Reductase) and glutathione peroxidase (GSH:H2O2 peroxidase)during deficiency. These results are compared with similar observations reported for vitamin B12 deficiency in humans.
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PMID:Erythrocyte glutathione metabolism in cobalt-deficient goats. 103 28

Oxygen free radicals and other oxygen derived species (Superoxide, O2-; Hydroperoxide, HOO; Singlet oxygen, 1O2-; Hydroxyl radical, OH; and Hydrogen peroxide, H2O2) including lipid peroxides have been suggested as important causative agents of aging and several human diseases, including cancer, multiple sclerosis, Parkinson's disease, autoimmune disease, ischemia, anemia, senile dementia, asbestosis and in thalassemia. This paper aims to communicate some of the theories and rationales in aging process and thalassemia.
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PMID:Role of lipid peroxidation and antioxidants in aging process and thalassemia. 134 11

Ethinyl estradiol administered in vivo to female rats resulted in a mild anemia with a 120% increase in reticulocytosis. Consistent with a previous study, the red blood cell cholesterol-to-phospholipid molar ratio was decreased by 25%, whereas fatty acyl incorporation was significantly increased into phosphatidylethanolamine (PE) and not into phosphatidylcholine (PC), the major acyl acceptor in red blood cells. Analysis of this estrogen-dependent acylation increase as a function of cell age indicated that it was not expressed in reticulocytes but in erythrocytes and was associated with cell aging. Estrogen was further shown to increase the red blood cell susceptibility to peroxidation generated by incubation with H2O2. Altogether, the results suggest that estrogen indirectly increases phospholipid acylation in red blood cells by decreasing protection against oxidative damage, thereby favoring the action of endogenous phospholipases against oxidized substrates. This occurs predominantly in PE of oldest cells because 1) PE, being more unsaturated than PC, is more sensitive to oxidation, and 2) susceptibility to oxidation increases with cell age.
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PMID:Estrogen modulates phospholipid acylation in red blood cells: relationship to cell aging. 188 70

It has been shown by genetic complementation analysis that a mitomycin C-sensitive mutant (V-H4) of Chinese hamster V79 cells is the first rodent equivalent of Fanconi anemia (FA) group A. The V-H4 mutant shows many typical characteristics of cells derived from FA patients. V-H4 cells exhibit increased sensitivity towards cross-linking agents as MMC (approximately 30-fold), cis-DDP (approximately 10-fold), DEB (approximately 10-fold), and PUVA (approximately 1.6-fold), but an only slightly increased sensitivity to monofunctional alkylating agents (EMS and MMS) and actinomycin D. V-H4 cells are also moderately sensitive to adriamycin (1.6-fold), and not sensitive to H2O2. The levels of chromosomal aberrations induced by MMC and cis-DDP treatment are higher (4- to 6-fold) in V-H4 cells than in the wild-type V79 cells. Genetic complementation analysis with other Chinese hamster mutants hypersensitive to MMC (irs1, irs1SF, UV20 and UV41) indicates clearly that V-H4 belongs to a different, new complementation group. This unique mutant is very stable and can serve as a vehicle to isolate the complementing FA-A gene from normal human DNA.
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PMID:The Chinese hamster V79 cell mutant V-H4 is phenotypically like Fanconi anemia cells. 226 31

Peripheral blood lymphocytes from eight Fanconi anemia (FA) patients, 14 FA heterozygotes, and nine normal subjects have been tested for their susceptibility to chromosomal breakage induction by diepoxybutane (DEB) and by two peroxides. In addition, the effect of five antioxidants was investigated in standard cultures and in cultures stressed either with DEB or with butylhydroperoxide (BHP) or with hydrogen peroxide (H2O2). DEB, BHP, and H2O2 dramatically increased the chromosomal breakage levels in homozygous and heterozygous FA cells. A partial correction of chromosomal instability was obtained by treating the patients' lymphocytes with antioxidants. A "protective" effect was also noted in the DEB or peroxide-stressed lymphocytes of patients and heterozygotes, grown in the presence of antioxidants.
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PMID:Effect of oxidants and antioxidants on chromosomal breakage in Fanconi anemia lymphocytes. 396 90

The recognition of abnormal lipoprotein metabolism that produces chronic hypocholesterolemia in myeloproliferative disorders and the known influence of altered plasma lipid levels on erythrocyte membranes prompted a study of erythrocyte susceptibility to lipid peroxidation in myeloproliferative disease. Malonyldialdehyde generation during an oxidant challenge of erythrocyte suspensions of standardized hemoglobin concentration with H2O2 was significantly greater in 32 patients with myeloproliferative disease than in 47 hematologically normal subjects. The myeloproliferative disease group had significantly lower plasma total, HDL-, and LDL-cholesterol, erythrocyte indices, and erythrocyte deformability, and higher reticulocyte counts and serum lactic dehydrogenase. In the myeloproliferative disease group, mean corpuscular hemoglobin concentration, reticulocyte count, and erythrocyte count were significant variables in accounting for the observed variation in peroxidation susceptibility. Erythrocytes of patients with myeloproliferative disease had elevated concentrations of reduced glutathione, normal glutathione stability, and normal alpha-tocopherol content. These studies demonstrate increased susceptibility to oxidative damage in myeloproliferative disease despite normal or increased concentrations of the major antioxidant compounds of the erythrocyte. The presence of reticulocytosis, elevated serum lactic dehydrogenase, and decreased erythrocyte deformability suggests that lipid peroxidation susceptibility is associated with in vivo hemolysis and may contribute to the anemia that complicates myeloproliferative disease.
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PMID:Increased erythrocyte susceptibility to lipid peroxidation in myeloproliferative disorders. 669 Jun 40


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